/// <summary>
/// Be sure to use base.OnAwake() when overriding.
/// This is called when the NetObject runs Awake(). All code that depends on the NetObj being initialized should use this
/// rather than Awake();
/// </summary>
public virtual void OnAwake()
{
netObj = GetComponentInParent <NetObject>();
if (netObj)
{
syncState = netObj.GetComponent <SyncState>();
}
EnsureComponentsDependenciesExist();
OnAwakeInitialize(true);
}
/// <summary>
/// Apply the vectors (offset, pos, rot, velocity) in StateChangeInfo to the syncState object. Returns true if teleport is required for change.
/// </summary>
public static void ApplyVectors(this SyncState syncState, StateChangeInfo stateChangeInfo, Transform prevParent, List <IOnTeleport> callbacks)
{
Transform transform = syncState.transform;
/// For respawns just the pos/rot values are NET relative to he old parent.
//if (stateChangeInfo.respawn)
//{
// var mount = stateChangeInfo.mount;
// var localPos = stateChangeInfo.offsetPos;
// var localRot = stateChangeInfo.offsetRot;
// int cnt = callbacks.Count;
// for (int i = 0; i < cnt; i++)
// callbacks[i].OnTeleport();
// transform.parent = (mount) ? mount.transform : null;
// if (localPos.HasValue)
// transform.localPosition = localPos.Value;
// if (localRot.HasValue)
// transform.localEulerAngles = localRot.Value;
// return;
//}
//else
//{
//if (stateChangeInfo.offsetPos.HasValue)
//{
// {
// var parRot = prevParent ? prevParent.rotation : transform.rotation;
// /// TODO: offset and vel likely should be part of the ChangeState itself
// /// Apply offset before changing state
// var localOffset = stateChangeInfo.offsetPos;
// //Debug.Log(Time.time + " " + transform.name + " Dequeue " + transform.position + " " + transform.position + prevParent.rotation * localOffset);
// //transform.position = transform.position + prevParent.rotation * localOffset.Value;
// Vector3? pos = localOffset.HasValue ? (transform.position + parRot * localOffset.Value) : (Vector3?)null;
// Vector3? rot = stateChangeInfo.offsetRot;
// //int cnt = callbacks.Count;
// //for (int i = 0; i < cnt; i++)
// // callbacks[i].OnTeleport();
// transform.parent = null;
// if (pos.HasValue)
// transform.position = pos.Value;
// if (rot.HasValue)
// transform.eulerAngles = rot.Value;
// }
//}
//}
if (stateChangeInfo.velocity.HasValue)
{
var rb = syncState.Rb;
if (rb)
{
if (!rb.isKinematic)
{
rb.velocity = ((prevParent) ? prevParent.rotation : rb.rotation) * stateChangeInfo.velocity.Value;
}
}
else
{
var rb2d = syncState.Rb2d;
if (rb2d)
{
if (!rb2d.isKinematic)
{
rb2d.velocity = stateChangeInfo.velocity.Value;
}
}
}
}
}
